Author Correction: Primary Metabolism Co-Opted for Defensive Chemical Production in the Carabid Beetle, Harpalus pensylvanicus

Biofilms are used in environmental biotechnologies including waste treatment and environmentally friendly chemical production. Understanding the mechanisms of biofilm formation is essential to control microbial behavior and improve environmental biotechnologies. Acinetobacter sp. Tol 5 autoagglutinate through the interaction of the long, peritrichate nanofiber protein AtaA, a trimeric autotransporter adhesin. Using AtaA, without cell growth or the production of extracellular polymeric substances, Tol 5 cells quickly form an unconventional biofilm. In this study, we investigated the formation process of this unconventional biofilm, which started with cell–cell interactions, proceeded to cell clumping, and led to the formation of large cell aggregates. The cell–cell interaction was described by DLVO theory based on a new concept, which considers two independent interactions between two cell bodies and between two AtaA fiber tips forming a virtual discontinuous surface. If cell bodies cannot collide owing to an energy barrier at low ionic strengths but approach within the interactive distance of AtaA fibers, cells can agglutinate through their contact. Cell clumping proceeds following the cluster–cluster aggregation model, and an unconventional biofilm containing void spaces and a fractal nature develops. Understanding its formation process would extend the utilization of various types of biofilms, enhancing environmental biotechnologies.

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RHEOLOGICAL PROPERTIES OF CERAMIC MASSES: IMPROVEMENT BY COMPLEX MATERIAL ACTIVATION

The Russian Automobile and Highway Industry Journal ◽

10.26518/2071-7296-2019-3-334-351 ◽

2019 ◽

Vol 16 (3) ◽

pp. 334-351

Author(s):

A. S. Mavlyanov ◽

E. K. Sardarbekova

Keyword(s):

Rheological Properties ◽

Raw Materials ◽

Sensitivity Coefficient ◽

Raw Material ◽

Clay Material ◽

Fibrous Materials ◽

Chemical Production ◽

Production Wastes ◽

Pass Through ◽

The Masses

Introduction. The objective of the research is to study the effect of the complex activation of the alumina raw material on the rheological properties of the ceramic mass. In addition, the authors investigate solutions for the application of optimal coagulation structures based on loams and ash together with plastic certificates.Materials and methods. The authors used the local forest like reserves of clay loams at the BashKarasu, ash fields of the Bishkek Central Heating Centre (BTEC) and plasticizer (sodium naphthenate obtained from alkaline chemical production wastes) as fibrous materials. Moreover, the authors defined technological properties of raw materials within standard laboratory methodology in accordance with current GOSTs.Results. The researchers tested plastic durability on variously prepared masses for the choice of optimal structures. The paper demonstrated the plastic durability of complexly activated compounds comparing with non-activated and mechanically activated compounds. The sensitivity coefficient increased the amount of clay loams by mechanically and complexly activated, which predetermined the possibility of intensifying the process of drying samples based on complexly activated masses.Discussion and conclusions. However, mechanical activation of clay material reduces the period of relaxation and increases the elasticity coefficient of ceramic masses by 1.8–3.4 times, meanwhile decreases elasticity, viscosity and the conventional power during molding, which generally worsens the molding properties of the masses. Сomplex activation of ash-clay material decreases the period of relaxation and provides an increase in elasticity, plasticity of ceramic masses by 46–47%, reduction in viscosity by 1.5–2 times, conventional power on molding by 37–122% in comparison with MA clay loams. Ceramic masses based on spacecraft alumina raw materials belong to the SMT with improved rheological properties; products based on them pass through the mouthpiece for 5–7 seconds.

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The interasin raw material base of coke-chemical production of Ukraine: Problems of charge formation, its preparation and coking

Journal of Coal Chemistry ◽

10.31081/1681-309x-2018-0-5-3-7 ◽

2018 ◽

Vol 5 (6) ◽

pp. 3-7 ◽

Cited By ~ 1

Author(s):

E.S. Popov ◽

V.I. Gavrilyuk ◽

N.V. Mukina ◽

E.T. Kovalev ◽

I.D. Drozdnik ◽

...

Keyword(s):

Raw Material ◽

Material Base ◽

Chemical Production ◽

Charge Formation

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Ectotherms, Temperature, and Trade-Offs: Size and Number of Eggs in a Carabid Beetle

The American Naturalist ◽

10.2307/3079101 ◽

2000 ◽

Vol 155 (6) ◽

pp. 804

Author(s):

Ernsting ◽

Isaaks

Keyword(s):

Carabid Beetle ◽

Trade Offs

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Carabid Beetle (Coleoptera: Carabidae) Response to Soil Properties of Urban Wastelands in Warsaw, Poland

Sustainability ◽

10.3390/su122410673 ◽

2020 ◽

Vol 12 (24) ◽

pp. 10673

Author(s):

Axel Schwerk ◽

Marzena Wińska-Krysiak ◽

Arkadiusz Przybysz ◽

Ewa Zaraś-Januszkiewicz ◽

Piotr Sikorski

Keyword(s):

Negative Impact ◽

Carabid Beetle ◽

Carabid Beetles ◽

Soil Parameters ◽

City Development ◽

Space Management ◽

Trade Offs ◽

Beetle Assemblages ◽

Trace Element Contamination ◽

The One

Urban wasteland is of special interest to city planners. However, to integrate such areas into city space management with consideration of nature conservation aspects, a sound assessment of their ecological potential is necessary. The aim of this paper was to analyze whether carabid beetle assemblages of the wastelands are affected by soil parameters, particularly trace element contamination. Therefore, we studied the carabid fauna in relation to selected soil parameters on 56 sampling plots situated in 24 wastelands located in the city of Warsaw (Poland). The results have confirmed our assumptions that the number of species, as well as the number of individual carabid beetles, are negatively affected by an increasing amount of pollutants in the soil. Particularly, the trace elements Pb, Cu, and Cd showed a significantly negative impact. The results are of value when it comes to the use of urban wastelands in the context of sustainable city development. Future use of urban wastelands will be faced with trade-offs between the use for public interests (e.g., housing space) and ecological interests. Phytoremediation and entomoremediation may be included in decontamination measures. The results of studies, such as the one conducted by us, may help to select the respective wastelands for certain purposes.

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Correction to: Design of Flange Connections of Chemical Production Equipment (Review of Patents)

Chemical and Petroleum Engineering ◽

10.1007/s10556-021-00883-3 ◽

2021 ◽

Vol 56 (11-12) ◽

pp. 1045-1045

Author(s):

I. O. Mikulionok

Keyword(s):

Production Equipment ◽

Chemical Production

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3D-surface MALDI mass spectrometry imaging for visualising plant defensive cardiac glycosides in Asclepias curassavica

Analytical and Bioanalytical Chemistry ◽

10.1007/s00216-021-03177-y ◽

2021 ◽

Vol 413 (8) ◽

pp. 2125-2134

Author(s):

Domenic Dreisbach ◽

Georg Petschenka ◽

Bernhard Spengler ◽

Dhaka R. Bhandari

Keyword(s):

Mass Spectrometry ◽

Mass Spectrometry Imaging ◽

Cardiac Glycosides ◽

Molecular Mechanisms ◽

Plant Science ◽

Primary Metabolism ◽

Native Plant ◽

Asclepias Curassavica ◽

3D Surface ◽

3D Surfaces

AbstractMass spectrometry–based imaging (MSI) has emerged as a promising method for spatial metabolomics in plant science. Several ionisation techniques have shown great potential for the spatially resolved analysis of metabolites in plant tissue. However, limitations in technology and methodology limited the molecular information for irregular 3D surfaces with resolutions on the micrometre scale. Here, we used atmospheric-pressure 3D-surface matrix-assisted laser desorption/ionisation mass spectrometry imaging (3D-surface MALDI MSI) to investigate plant chemical defence at the topographic molecular level for the model system Asclepias curassavica. Upon mechanical damage (simulating herbivore attacks) of native A. curassavica leaves, the surface of the leaves varies up to 700 μm, and cardiac glycosides (cardenolides) and other defence metabolites were exclusively detected in damaged leaf tissue but not in different regions of the same leaf. Our results indicated an increased latex flow rate towards the point of damage leading to an accumulation of defence substances in the affected area. While the concentration of cardiac glycosides showed no differences between 10 and 300 min after wounding, cardiac glycosides decreased after 24 h. The employed autofocusing AP-SMALDI MSI system provides a significant technological advancement for the visualisation of individual molecule species on irregular 3D surfaces such as native plant leaves. Our study demonstrates the enormous potential of this method in the field of plant science including primary metabolism and molecular mechanisms of plant responses to abiotic and biotic stress and symbiotic relationships. Graphical abstract

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Cytochrome c Deficiency Differentially Affects the In Vivo Mitochondrial Electron Partitioning and Primary Metabolism Depending on the Photoperiod

Plants ◽

10.3390/plants10030444 ◽

2021 ◽

Vol 10 (3) ◽

pp. 444

Author(s):

Igor Florez-Sarasa ◽

Elina Welchen ◽

Sofia Racca ◽

Daniel H. Gonzalez ◽

José G. Vallarino ◽

...

Keyword(s):

Cytochrome C ◽

Tca Cycle ◽

Day Length ◽

Primary Metabolism ◽

Stress Signaling ◽

Alternative Pathways ◽

Tca Cycle Intermediates ◽

Growth Adaptation ◽

Plant Respiration

Plant respiration provides metabolic flexibility under changing environmental conditions by modulating the activity of the nonphosphorylating alternative pathways from the mitochondrial electron transport chain, which bypass the main energy-producing components of the cytochrome oxidase pathway (COP). While adjustments in leaf primary metabolism induced by changes in day length are well studied, possible differences in the in vivo contribution of the COP and the alternative oxidase pathway (AOP) between different photoperiods remain unknown. In our study, in vivo electron partitioning between AOP and COP and expression analysis of respiratory components, photosynthesis, and the levels of primary metabolites were studied in leaves of wild-type (WT) plants and cytochrome c (CYTc) mutants, with reduced levels of COP components, under short- and long-day photoperiods. Our results clearly show that differences in AOP and COP in vivo activities between WT and cytc mutants depend on the photoperiod likely due to energy and stress signaling constraints. Parallel responses observed between in vivo respiratory activities, TCA cycle intermediates, amino acids, and stress signaling metabolites indicate the coordination of different pathways of primary metabolism to support growth adaptation under different photoperiods.

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